低轨空间目标甚短弧初轨关联

Association of Very-Short-Arc Angles Data for LEO Space Objects

  • 摘要: 利用地基或天基光学观测技术进行低轨道(low earth orbit,LEO)目标编目库扩展,两个关键技术为甚短弧初轨确定(initial orbit determination, IOD)和初轨关联,针对这两个问题提出了距离搜索方法和几何方法。利用中国科学院国家天文台长春人卫站地基光电阵观测的角度数据和天基光学仿真角度数据进行实验。结果表明,利用距离搜索法进行甚短弧初轨确定,处理天基和地基数据的成功率约为90%;利用几何法进行初轨关联,相同目标初轨关联正确率高于80%。利用长春光电阵数据对关联算法进行了不同初轨条件下的大量测试和分析。初轨确定和初轨关联的试验结果验证了距离搜索法和几何法的有效性,表明这两种算法可应用于编目库扩展。

     

    Abstract: The initial orbit determination (IOD) of the very-short-arc (VSA) and the association between them are the key steps for expanding the catalogue with optical observations obtained from ground-based or space-based telescopes. For this reason, the distance search method for IOD and the geometrical method for their association were proposed. With optical observations from ground-based small telescopes array at Changchun Observatory, National Astronomical Observatories, China Academy of Sciences in Changchun and simulated observations from space-based telescope, the IOD and the association between the IODs are performed. The successful rates of getting an IOD solution for an optical arc with the distance search method is about 90%. For two kinds of observations. The IOD association results show that the true positive (assert that they are from same object for IODs from a same object) rate is over 80% in most cases. Ant the effects on the association accuracy of filtered different IODs are analyzed in depth. With actual optical observations obtained at Changchun, the results of IOD and their association show the validity of the IOD method and association method used in this paper and they can be used to expand the space object catalogue.

     

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